Abstract: A monolithic display device including a plurality of first pixels capable of emitting light in a first wavelength range, and a plurality of second pixels capable of emitting light in a second wavelength range, the first pixels each including a gallium nitride light-emitting diode, and the second pixels each including an organic light-emitting diode.

Abstract: A method of location of a device includes a displacement law containing a corrective factor of a bias combined by an arithmetical operation with a measured variable, and particles, each particle being associated with a current value of the corrective factor. The current value of the corrective factor being constructed at each iteration on the basis of a previous current value of the corrective factor, computed during a previous iteration, to which is added a random variable drawn according to a predefined probability law. The current values of various particles are initialized, before the first iteration, to various initial values, and during each iteration, for each particle whose coordinates are updated with the aid of this displacement law, the value of the corrective factor in the displacement law is taken equal to this corrective factor's current value associated with the particle.

Abstract: A bonding between a first substrate and a second substrate, the method includes the steps of: a) providing the first substrate and the second substrate, b) forming a first bonding layer having tungsten oxide on the first substrate and a second bonding layer having tungsten oxide on the second substrate, at least one of the first bonding layer and of the second bonding layer including a third element M so as to form an MWxOy-type alloy, the atomic content of M in the composition of the alloy being between 0.5 and 20% and preferably between 1 and 10%, c) carrying out a direct bonding between the first bonding layer and the second bonding layer, and d) performing a heat treatment at a temperature greater than 250° C.

Abstract: An electronic system including: a sensor (201) capable of successively supplying n vectors Li each including k values Li(j); and an electronic device (403) for processing on the fly the values measured by the sensor, including: a first stage (407) capable, each time a vector Li has been supplied by the sensor, of multiplying the k values Li(j) of vector Li by respectively k coefficients bi(j), and of supplying a vector T1i of k values T1i(j); a second stage (409) capable, each time a vector T1i has been supplied, of multiplying vector T1i by a matrix Ã of k*p coefficients, and of supplying a vector T2i of p values T2i(l); and a third stage (411) capable of digitally integrating the n vectors T2i and of supplying an output vector IT of p values IT(l).

Abstract: A method for producing heat exchangers having at least two fluid circuits each having channels, including the following steps: producing one or a plurality of elements of a first fluid circuit, each element having at least two metal plates, at least one of which has first grooves; stacking the at least two metal plates of each element in such a way that the first grooves form the channels of the first circuit; assembling each element of the first circuit by diffusion welding between the two stacked metal plates; producing one or a plurality of elements of at least one second fluid circuit, each element of the second circuit having at least a portion of the channels of the second circuit; assembling, either by diffusion welding, or by brazing, or by diffusion brazing between the element or elements of the first circuit and the element or elements of the second circuit.

Abstract: A method for fabricating the electrochemical device includes provision of a first stack. This first stack successively includes: a first electrode, an electrically insulating liquid electrolyte in contact with the first electrode, a second electrode separated from the first electrode by the liquid electrolyte. The method includes an at least partial polymerisation step of the liquid electrolyte.

Abstract: A sensor including an optical cavity capable of receiving the gas, and defined by first and second opposite ends and a connecting portion connecting said ends; a light source arranged to emit infrared light in the optical cavity; at least one infrared detector arranged to detect the infrared light; at least one mirror arranged in the optical cavity to guide the infrared light towards said at least one infrared detector; the sensor being remarkable in that it includes first and second reflective elements respectively extending at the first and second ends of the optical cavity, and having an infrared light reflection coefficient greater than or equal to 75% for any angle of incidence.

Abstract: A process for producing conductive connections to an electronic chip, comprising the following steps: a) depositing an insulating layer on one face of a wafer; b) producing a layer based on at least one metal covering the insulating layer and equipped with first apertures; c) etching second apertures in the insulating layer in the extension of the first apertures by plasma etching in a plasma based on at least one halogen-containing compound; d) vacuum annealing the entire structure obtained after step c); and e) forming, after step d), the conductive connections in the second apertures.

Abstract: The invention relates to a skin print sensor (140) comprising, on a supporting substrate, a plurality of elementary acquisition cells (141), each of which includes: a reading node (SN); a first photoelectric or pyroelectric conversion element (PYR) having a first electrode that is connected to the reading node (SN) as well as a second electrode that is connected to a control node (CMD) of the cell; and a third electrode (EL) that is connected to the reading node (SN), is coated with a dielectric layer and is designed to form a capacitance along with the skin of a user; in each cell of said sensor, the control node (CMD) is designed to receive a control signal that initiates reading of a value on the reading node (SN), said value representing the capacitance formed between the third electrode (EL) and the user's skin.

Abstract: A thermal pattern sensor comprising a plurality of pixels, each pixel comprising at least one pyroelectric capacitor formed by at least one portion of pyroelectric material arranged between a lower electrode and an upper electrode, in which one of the lower and upper electrodes corresponds to an electrode for reading the pixel and in which a heating element that can heat the portion of pyroelectric material of the pyroelectric capacitor of the pixel by Joule effect during a measurement of the thermal pattern by the pyroelectric capacitor of the pixel is formed by the other of the lower and upper electrodes.

Abstract: A method for determining the original position of a wafer in an ingot made from semiconductor material comprises the following steps: measuring the interstitial oxygen concentration in an area of the wafer; measuring the concentration of thermal donors formed in said area of the wafer during a previous solidification of the ingot; determining the effective time of a thermal donor formation anneal undergone by the wafer when solidification of the ingot took place, from the thermal donor concentration and the interstitial oxygen concentration; and determining the original position of the wafer in the ingot from the effective time.

Abstract: A storage battery, including: first and second stages connected electrically in series, each stage including at least first, second, and third batteries connected electrically in parallel; at least first and second breakers by which the batteries of the first stage are connected in parallel and by which the batteries of the second stage are connected in parallel, each one of the breakers including: first and second electrodes; a fuse including a conducting link connected in series between the first and second electrodes and a fusible portion; an explosive, with a heat bridge between the fuse and the explosive causing the conducting link to open, the explosive having an explosion initiation temperature that is lower than the melting point of the fusible portion.

Abstract: The invention relates to a device for detecting an electric arc based on an analog output signal (104) of at least one acoustic wave sensor (102), this device including: an analog-to-digital converter (106) capable of sampling and digitizing the output signal (104) of the sensor (102); a digital processing circuit (110) capable of implementing a frequency domain analysis of the digital output signal (108) of the converter (106) enabling to detect the possible presence of an arc based on its acoustic signature; and an analog circuit (118) for detecting the exceeding of a power threshold by the output signal (104) of the sensor (102), wherein the digital processing circuit (110) is configured to implement the frequency domain analysis only on detection of the exceeding of a threshold by the analog circuit (118).

Abstract: The use of hydroxyiminoalkanoic acids including at least four carbon atoms as anti-nitrous agents in operations of reductive stripping of plutonium. The invention may be useful in any method for processing spent nuclear fuels that includes one or more operations of reductive stripping of plutonium and, more particularly, in the PUREX method as implemented in modern nuclear fuel processing plants, as well as in processes derived therefrom.

Abstract: A method of circuit conception including performing static timing analysis on a circuit design to identify a first subset of the synchronous devices having at least one input path with a slack time below a first threshold; simulating the circuit design using one or more functional test patterns to identify a second subset of the synchronous devices for which the number of activations during the simulation is above a second threshold; selecting at least one synchronous device forming part of both of the first and second subsets; and modifying the circuit design to include, for each selected synchronous device, a detection circuit coupled to one or more inputs of the selected synchronous device.

Abstract: First, second and third series of samples are successively made so as to determine the influence of the deposition parameters on the crystallographic quality of a layer of semiconductor material of III-V type. The parameters studied are successively the deposition pressure, the deposition temperature and the deposited thickness of a sub-layer of semiconductor material of III-V type so as to respectively determine a first deposition pressure, a first deposition temperature at the first deposition pressure, and a first deposited thickness at the first deposition temperature and at the first deposition pressure. The sub-layer of semiconductor material of III-V type is thickened by ways of a second layer of semiconductor material of III-V type deposited under different conditions.

Abstract: The method enables a concentration of a species in a culture medium (12) to be estimated using an estimation system (10) comprising a light source (16), a transparent substrate (14) and a matrix photodetector (18), the substrate being located between the source and the photodetector, the medium comprising biological particles (32) and changing color when said concentration varies. Said method comprises the following steps:—placing the medium on the substrate,—illuminating the medium via the light source,—acquisition of an image of the medium via the photodetector, each image being formed by a ray transmitted by the illuminated medium and comprising at least one diffraction pattern, each diffraction pattern corresponding to the waves diffracted by a biological particle when the medium is illuminated,—and calculating an estimate of said concentration as a function of a pixel intensity of the acquired image.

Abstract: A summing circuit, including a capacitor, a switching circuit capable of connecting the capacitor between a first node (ana) and a second node (ref), between a third node and the second node in a first connection direction or between the third node and the second node in a second connection direction, an integrator coupled to the third node, a hysteresis comparator coupled to the output of the integrator, and a counter coupled to the output of the hysteresis comparator.

Abstract: The invention relates to a method for in vitro investigating mitochondrial replication dysfunction in a biological sample removed from a subject susceptible of suffering from physiological ageing or physiopathological conditions related to physiological ageing, or physiopathological ageing or associated symptoms or conditions, in particular premature ageing or accelerated ageing, or of a progeroid syndrome, such as Cockayne syndrome (CS), or neurodegenerative disorders or symptoms thereof, in which the levels of at least one species selected in the group of: POLG1 protein, POLG1 RNA, POLG2 protein, protease(s) which have POLG as a target, in particular serine protease(s) such as HTRA3 protein, HTRA2 protein and, HTRA3 RNA or HTRA2 RNA, or any combination of these species, are investigated.